This paper discusses the shift in technological innovation from developed to developing nations, and its link to economic growth and poverty reduction. The author writes that until the 1960s, technological innovation activities took place in wealthy environments to meet the needs of rich, industrialised nations. But a rising entrepreneurial spirit, higher incomes and favourable economic conditions in developing nations such as China and India have created a favourable environment for the development and diffusion of appropriate technologies: low cost solutions for the poor. The author suggests that these parts of the world are likely to become the centre of appropriate technology development in the future due to the size of the population in need of innovations, as well as growing technical capabilities. He argues that this geographical shift will move technological progress away from large companies to small local producers.

This paper provides guidance for policymakers working on identifying low-carbon technologies, and discusses why they should put innovation at the centre of any green growth strategy. The authors argue that the need for innovation in the low-carbon power sector is critical in terms of preventing climate change and promoting development.

The paper explains the innovation process in the low-carbon power sector, and highlights participants and rules in the innovation process. It introduces the 'innovation ecosystems' approach — designed to capture the complexity of innovation processes — and to identify the services innovators need. The final section lays out a step-by-step process for identifying and making the most of opportunities in this sector. The authors conclude that innovation is key to using technology effectively and solving global problems requires everyone to live up to their potential as innovators.

This report from PLoS Medicine argues that nanotechnology has a role in the development of low-income countries. The authors survey 85 experts worldwide and rank the top ten nanotech applications most likely to benefit developing nations. They outline how these applications can help meet the Millennium Development Goals. The paper calls for an initiative to identify "grand challenges" in nanotechnology for global health, which since the publication of this paper are now underway.

This follow-up paper, from the Journal of Nanotechnology Online, provides an in-depth look at the way poor countries engage with nanotechnology. It analyses why some developing nations are ahead of others in nanotechnology progress, and the challenges some less-developed countries face in shoring up nanotechnology capacity. It also investigates nanotechnology patent activity and assesses country participation in nanotechnology policy dialogues – for instance, China is a frontrunner in filing nanotech patents yet it is absent from policy discussions.

Mohamed Hassan at the Academy of Sciences for the Developing World (TWAS) argues that the nanotechnology boom will not lead to a divide between developed and developing countries due to the transformation of 21st century global science. Hassan says Brazil, China and India are swiftly developing nanotech capabilities. Instead, he warns of a South-South divide as poorer nations struggle to catch up. To avoid this, Hassan recommends that developing nations create networks between universities and research centres to share nanotech expertise.

This academic paper explores the Access and Benefit Sharing (ABS) system within the Convention on Biological Diversity (CBD). The authors highlight the principle challenges facing non-commercial biodiversity research scientists, in particular the tight regulations that restrict access to genetic resources in many countries and ultimately hinder the generation of knowledge vital to implementing the CBD.